Skip to main content

Green biotechnology


17 Most Important Applications Of Green biotechnology


Green biotechnology related to plants of improving both the quality and quantity of plants. The main goal of green biotechnology is the production of an improved variety of plants, with the help of biotechnology-based techniques that should be environmentally friendly solutions. 

The main aim of green biotechnology is to tackle food security issues and reduce the environmental footprint of the industry. Green biotechnology can improve the global food situation. 

17 Most Important Applications Of Green Biotechnology :

 1. Micropropagation 

One of the most important applications of green biotechnology is the micropropagation of plant species. this technique has attained the status of a large plant-based industry. Micropropagation is the true type of propagation of selected genotypes using small pieces of tissues which can stay as an important technique for rapid production of many commercially important plants like fruit trees and medicinal plants.

2. Production of virus-free plants

Most of the crop plants especially those propagated by vegetative means are systematically infected with one or more pathogens which affect the yield, and quality, and vigor of the plant. Therefore eradication of these pathogens is highly desirable to optimize the yield, and also to facilitate the international exchange of the germplasm. Eradication of virus has been an outstanding contribution of tissue culture technology which involves culturing of meristem tips.

3. Production of Haploid Plants

Haploid plants are unique genetic materials since they permit the expression of recessive genes, and doubling of a desirable haploid can from homozygous diploid in a single generation. These fertile homozygous plants can be used for producing the inbred lines required for hybridization programs.

4. Protoplast culture and somatic hybridization

One of the most significant developments in the field of plant tissue culture has been the isolation, culture, and fusion of protoplasts. This technique has far-reaching implications in plant improvement by cell modification and somatic hybridization. 

5. Embryo Rescue in sexual hybrids

The major application of embryo culture has been the rescuing of zygotic embryos formed as a result of interspecific and intergeneric crosses thereby raising rare hybrids. In many interspecific and intergeneric crosses, fertilization does occur normally and the embryo shows early development but embryos abort thereafter because of many factors. One of the important factors is the failure of the endosperm to develop properly which causes premature death of the hybrid embryos.

6. Production of synthetic and artificial seeds

Synthetic seeds offer a potential technology towards the use of somatic embryogenesis for large scale propagation of plants through automation. Somatic embryos are extremely suitable materials for large-scale propagation as a large number of somatic embryos of the same age can be produced in a bioreactor. An artificial seed is therefore analogous to true seeds in which a somatic embryo is encapsulated with a coating material, which protects the embryos against desiccation and mechanical injury.

7. Production of secondary metabolites

Production of diverse secondary metabolites like anthocyanins, alkaloids, carotenoids, tannins, flavones, steroidal, etc from plant cell and tissue culture is yet to achieve at industrial level status. 

8. Production of transgenic plants for varietal improvement

With the use of biotechnology-based techniques, we can develop genetically modified crops. Transgenic plants are aimed at improving the productivity and efficiency of crop plants. This technique also improves the nutritional value of the storage of protein by protein engineering. Transgenic plants are possible to target crop plant improvement.

9. Biofertilizers

Biofertilizers are microorganisms based fertilizers that are eco-friendly by nature. Biofertilizers enhance the availability of nutrients like Nitrogen (N), and Phosphorus(P). They are low in cost and they do not pollute the environment. They promote plant growth and protect plants from soil pathogens. 

10. Transgenesis

Transgenesis is a process that involves the insertion of required DNA into other organism's DNA for introducing new genes into the original organisms. Transgenesis helps to create a new variety of plants with desired traits.


Biopesticides are biological agents that are used to control weeds, insects, and pathogens. The use of biopesticides is helping to reduce the applications of chemicals for the control of the disease in plants. 

12.Improve nutritional content

Under green biotechnology, techniques have been used to improve the nutritional value of crops. With help of these techniques, we can produce crops with a higher concentration of vitamins. 

13. Mutagenesis 

Mutagenesis is a process under which mutation occurs in the DNA. In agricultural biotechnology, the mutagenesis process helps to induce random mutation to create variety within crops with required traits. 

14. Genetic engineering

Genetic manipulation carried out in plants for the production of transgenic plants is to improve the crops, with the desired traits. With the help of genetic engineering, we can introduce resistance to biotic stresses, resistance to abiotic stresses, improvement in crop yield, improved nutritional value, etc all are varieties can be introduced in required plants.

15.Genome Editing 

Genome editing help to generate and modify the DNA directly within the cell. This type of technology helps to develop herbicide-resistant varieties in crops.

16. Chloroplast engineering

Chloroplast engineering is an important and exciting field in biotechnology. Due to this technique, a high level of transgene expression is possible in the plant cells. The multigene transfer can be conveniently carried out by this technique. 

17. Germplasm conservation

Germplasm is the hereditary material that is transmitted to the offspring through germ cells. It helps breeders to develop various crops. So, conservation of germplasm assumes significance in all breeding programs. The main objective of germplasm conservation is to preserve plant or genetic stock for its use at any time in the future. 


The above discussion proves that Green biotechnology is very important for the improvement of plant health. It is required to enhance both the quality and quantity factors related to plants. As a result, all of this ultimately beneficial to our natural health too. 

Image reference


  1. Absolutely knowledgeable content. Thanks for sharing this kind of content. It is very helpful and very informative and I really learned a lot from it. Eco friendly packaging in UAE

  2. Thanks for your post. It's very helpful post for us. You can also visit Pest Control Brisbane for more Victor Steel related information. I would like to thanks for sharing this article here.

  3. Really glad to say, your post is very interesting to read baout zinc sulphate monohydrate 33% granular . I never stop myself from saying anything about it. You are doing a great jobVery interesting. Your article is so convincing that I can never stop myself from saying anything about it. You are doing a great job, thanks for sharing such a great blog.

  4. You wrote this post with great care and attention to detail regarding this issue. Your article provided me with useful information. It's quite beneficial to me as well as others. Thank you for continuing to share this type of information. Bio pesticides

  5. You wrote this post with great care and attention to detail regarding this issue. Your article provided me with useful information. It's quite beneficial to me as well as others. Thank you for continuing to share this type of information. Bio pesticides

  6. I am attracted by the info which you have provided in the above post about weed control near me. It is genuinely good and beneficial info for us. Continue posting, Thank you.

  7. I am grateful to this blog site providing special as well as useful understanding concerning this subject. Ants Control Brampton

  8. The information you've provided is useful because it provides a wealth of knowledge that will be highly beneficial to me. Thank you for sharing that. Keep up the good work. Allergy Injections In Westford Ma

  9. Also, there are some acceptable ones out there as well! I'm simply more knowing with regards to where I invest my energy and cash now and I quit pursuing the following sparkly proposition." Termite Inspection Brisbane.

  10. I found decent information in your article. I am impressed with how nicely you described this subject, It is a gainful article for us,Send a plant as a gift Thanks for share it.

  11. The article you've shared here is fantastic because it provides some excellent information that will be incredibly beneficial to me. Thank you for sharing that. Keep up the good work. Eco Friendly Packaging Indonesia

  12. I found decent information in your article. I am impressed with how nicely you described this subject, It is a gainful article for us, Plant Genetic Testing Services Thanks for share it.

  13. Lots of valuable data can be taken from your article about a mattress. I am happy that you have shared great info with us, It is a gainful article for us. Thankful to you for sharing an article like this.Plant Genetic Testing Services

  14. Enjoyed the article, really explains everything in detail, it is very interesting and useful at the same time. Keep up the good work. pest control singapore. Thank you.

  15. You have Shared great content here about Biotechnology News Articles Online I am glad to discover this post as I found lots of valuable data in your article. Thanks for sharing an article like this.

  16. This blog had very good knowledge and that gave huge instructions and that was really commendable ideas. you have provided good knowledge on this topic please share more information with us.mycotrop

  17. The blog was having very informative content and very useful for me. Well done post and keep it up... Thanks for sharing such a Useful info. mycotrop

  18. Clearly, It is an engaging blog for us that you have provided here which is related to PRP Skin Needling Sydney This is a great resource to enhance our knowledge about it. Thank you.

  19. Wow! great article, thank you for posting this fantastic blog it's full of amazing content and please continue to share articles like this one. We are providing customized erp software companies in chennai


Post a Comment

Please do not enter any spam link in the comment box.

Popular posts from this blog

Red Biotechnology

  20 Major Applications Of Red Biotechnology Red Biotechnology is a branch of modern biotechnology T he term Biotechnology was introduced by a Hungarian engineer, Karl Ereky in 1917. Ereky defined biotechnology as “ all lines of work by which products are produced from raw materials with the aid of living things”. Biotechnology is a multidisciplinary application. Biotechnological research has a wide range of applications that are shown in medical and health science, agriculture science, and environmental science. Bio-Pharmaceutical is known as Red- Biotechnology. This branch of biotechnology is related to health care. The main utilization of this branch is shown in the field of medicine. Red biotechnology helps to improve the quality of life. Red-Biotechnology has a wide range of applications. Many applications are shown in medical and health science, genetic engineering, gene therapy, and many more fields related to the medical line. 20 Major Applications of Red Biotechnology are: 1.

Milestones in the history of Plant Tissue Culture

  Milestones in the history of Plant Tissue Culture  20 Scientists name and their contribution to Plant Tissue culture         Gottlieb Haberlandt - Father of Plant Tissue Culture  Plant Tissue Culture is an in vitro aseptic conditions of plant cells, tissues, or organs maintained growth under sterile conditions on a nutrient culture medium of known composition. It is a collection of various techniques that helps for the development of the plants under the artificial environment that produces the required plant quickly. In short, Plant tissue culture is the growth of organs, tissues, or cells in an artificial medium. Applications part of Plant Tissue Culture are : It is the most efficient technology for crop improvement. Production of the plant by Plant Tissue culture technology has the capability to resistance to various diseases.  The plants become tolerable to stress. The most important application of plant tissue culture is the micropropagation of plant species. It is an important